1 #ifndef DALI_TOOLKIT_INTERNAL_VISUAL_H
2 #define DALI_TOOLKIT_INTERNAL_VISUAL_H
5 * Copyright (c) 2018 Samsung Electronics Co., Ltd.
7 * Licensed under the Apache License, Version 2.0 (the "License");
8 * you may not use this file except in compliance with the License.
9 * You may obtain a copy of the License at
11 * http://www.apache.org/licenses/LICENSE-2.0
13 * Unless required by applicable law or agreed to in writing, software
14 * distributed under the License is distributed on an "AS IS" BASIS,
15 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
16 * See the License for the specific language governing permissions and
17 * limitations under the License.
22 #include <dali/public-api/animation/animation.h>
23 #include <dali/public-api/common/intrusive-ptr.h>
24 #include <dali/public-api/images/image-operations.h>
25 #include <dali/public-api/object/base-object.h>
26 #include <dali/public-api/rendering/renderer.h>
27 #include <dali/public-api/rendering/shader.h>
30 #include <dali-toolkit/devel-api/visual-factory/visual-factory.h>
31 #include <dali-toolkit/devel-api/visual-factory/visual-base.h>
32 #include <dali-toolkit/internal/visuals/transition-data-impl.h>
33 #include <dali-toolkit/internal/visuals/visual-factory-cache.h>
34 #include <dali-toolkit/devel-api/direction-enums.h>
35 #include <dali-toolkit/public-api/visuals/visual-properties.h>
36 #include <dali-toolkit/devel-api/visuals/visual-properties-devel.h>
52 using FittingMode = DevelVisual::FittingMode;
55 * Base class for all Control rendering logic. A control may have multiple visuals.
57 * Note: The visual responds to the the Actor::COLOR by blending it with the 'Multiply' operator.
59 * The following properties are optional
61 * | %Property Name | Type |
62 * |-------------------------|------------------|
63 * | customShader | MAP |
65 * where custom-shader is a map with the following properties:
66 * | %Property Name | Type |
67 * |-------------------------|------------------|
68 * | vertexShader | STRING |
69 * | fragmentShader | STRING |
70 * | subdivideGridX | INT |
71 * | subdivideGridY | INT |
72 * | shaderHints | INT |
74 class Base : public BaseObject
79 * Setting the properties of the visual, this API should only called by the VisualFactory
80 * @param[in] propertyMap The properties for the requested Visual object.
82 void SetProperties( const Property::Map& propertyMap );
85 * @copydoc Toolkit::Visual::Base::SetName
87 void SetName( const std::string& name );
90 * @copydoc Toolkit::Visual::Base::GetName
92 const std::string& GetName() const;
95 * @copydoc Toolkit::Visual::Base::SetSize
97 void SetTransformAndSize( const Property::Map& transform, Size controlSize );
100 * @brief Performs an action on the visual with the given action name and attributes.
102 * @param[in] actionName The name of the action to perform this API only takes an Index
103 * @param[in] attributes The list of attributes for the action. ( optional for this data structure to have content )
105 void DoAction( const Dali::Property::Index actionName, const Dali::Property::Value attributes );
108 * @copydoc Toolkit::Visual::Base::GetHeightForWidth
110 virtual float GetHeightForWidth( float width );
113 * @copydoc Toolkit::Visual::Base::GetWidthForHeight
115 virtual float GetWidthForHeight( float height );
118 * @copydoc Toolkit::Visual::Base::GetNaturalSize
120 virtual void GetNaturalSize( Vector2& naturalSize );
123 * @copydoc Toolkit::Visual::Base::SetDepthIndex
125 void SetDepthIndex( int index );
128 * @copydoc Toolkit::Visual::Base::GetDepthIndex
130 int GetDepthIndex() const;
133 * @copydoc Toolkit::Visual::Base::SetOnScene
134 * @pre Impl->mGeometry must be created before this method is called
136 void SetOnScene( Actor& actor );
139 * @copydoc Toolkit::Visual::Base::SetOffScene
141 void SetOffScene( Actor& actor );
144 * @copydoc Toolkit::Visual::Base::CreatePropertyMap
146 void CreatePropertyMap( Property::Map& map ) const;
149 * @brief Create a property map containing per-instance visual properties.
151 * This will enable creation of new visuals on control state change with
152 * any alternative style properties and the relevant instance properties
153 * (e.g. for image visual, the desired size, and for text visual, the actual text).
154 * @param[in] map The property map into which to write
156 void CreateInstancePropertyMap( Property::Map& map ) const;
159 * @brief Set whether the Pre-multiplied Alpha Blending is required
161 * @param[in] preMultiplied whether alpha is pre-multiplied.
163 void EnablePreMultipliedAlpha( bool preMultiplied );
166 * @brief Query whether alpha is pre-multiplied.
168 * @return True is alpha is pre-multiplied, false otherwise.
170 bool IsPreMultipliedAlphaEnabled() const;
173 * @brief Sets properties of custom shader
174 * @param[in] propertyMap Property map containing the custom shader data
176 void SetCustomShader( const Property::Map& propertyMap );
179 * @copydoc Toolkit::Visual::Base::SetProperty
181 void SetProperty( Dali::Property::Index index, const Dali::Property::Value& propertyValue );
184 * @copydoc Toolkit::Visual::Base::GetProperty
186 Dali::Property::Value GetProperty( Dali::Property::Index index );
189 * Gets currently staged renderer, or an empty handle if not staged
191 Renderer GetRenderer();
194 * Sets the mix color ( including opacity ) of the visual.
195 * @param[in] mixColor The new mix color
197 void SetMixColor( const Vector4& color );
200 * Sets the mix color of the visual.
201 * @param[in] mixColor The new mix color
203 void SetMixColor( const Vector3& color );
206 * Animate the property if it exists in the visual or renderer.
208 * If it's a visual property such as mix color or a transform property,
209 * saves the target value to the local data.
211 * If the visual isn't staged (i.e. it doesn't have a renderer),
212 * then this will not add an animation.
214 * If the animator is valid and the transition handle is empty - it will
217 * @param[in] transition The animation to create or attach to
218 * @param[in] animator The animation parameters of the property.
220 void AnimateProperty( Dali::Animation& transition,
221 Internal::TransitionData::Animator& animator );
224 * @brief Add an observer to watch for when the Visuals have events to notify
225 * Currently only supports a single observer
227 void AddEventObserver( Visual::EventObserver& observer );
230 * @brief Remove an observer
232 void RemoveEventObserver( Visual::EventObserver& observer );
235 * @brief Called when the visuals resources are loaded / ready
237 void ResourceReady( Toolkit::Visual::ResourceStatus resourceStatus );
240 * @brief Called when the visuals resources are loaded / ready
241 * @return true if ready, false otherwise
243 virtual bool IsResourceReady() const;
246 * @brief Get the loading state of the visual resource
247 * @return Return the loading status (PREPARING, READY and FAILED) of visual resource
249 Toolkit::Visual::ResourceStatus GetResourceStatus() const;
252 * @brief Get the fitting mode for the visual
254 FittingMode GetFittingMode() const;
257 * @brief Get the actual Visual Object.
258 * @return The actual visual object
259 * @note Should be overridden by deriving controls if they are acting as a proxy to other visual objects.
261 virtual Base& GetVisualObject();
264 * @brief Query whether resources requires to be loaded synchronously.
265 * @return Returns true if synchronous resource loading is required, false otherwise.
267 bool IsSynchronousLoadingRequired() const;
270 * @brief Get the type of this visual.
272 * @return The the type of this visual.
274 Toolkit::Visual::Type GetType() const;
277 * @brief Retrieve the property object associated with the property key.
279 * @param[in] key The Property key of the visual.
280 * @return The Property object
282 Dali::Property GetPropertyObject(Dali::Property::Key key);
286 * @brief Constructor.
288 * @param[in] factoryCache A pointer pointing to the VisualFactoryCache object
289 * @param[in] fittingMode The value that determines how the visual should be fit to the view
290 * @param[in] type The type of the this visual
292 Base( VisualFactoryCache& factoryCache, FittingMode fittingMode, Toolkit::Visual::Type type );
295 * @brief A reference counted object may only be deleted by calling Unreference().
302 * @brief Called by CreatePropertyMap() allowing sub classes to respond to the CreatePropertyMap event
304 * @param[out] map The visual property map.
306 virtual void DoCreatePropertyMap( Property::Map& map ) const = 0;
309 * @brief Called by CreateInstancePropertyMap() allowing derived
310 * classes to store instanced data (separate to styled data) that
311 * needs copying between visuals on state change.
313 * @param[out] map The visual property map
315 virtual void DoCreateInstancePropertyMap( Property::Map& map ) const = 0;
318 * @brief Called by SetProperties() allowing sub classes to set their properties
320 * @param[in] propertyMap The properties for the requested Visual object.
322 virtual void DoSetProperties( const Property::Map& propertyMap ) = 0;
325 * @brief Called when transform or control size changes
326 * ( Of use to SVG and Text visuals )
328 virtual void OnSetTransform() = 0;
331 * @brief Called by SetOnScene() allowing sub classes to respond to the SetOnScene event
333 * @note The derived class is required to create the renderer, and add it to the actor when all the resources are in place.
335 * @param[in] actor The actor applying this visual.
337 virtual void DoSetOnScene( Actor& actor ) = 0;
340 * @brief Called by SetOffScene() allowing sub classes to respond to the SetOffScene event
342 * @param[in] actor The actor applying this visual.
344 virtual void DoSetOffScene( Actor& actor );
347 * @brief Called by DoAction() allowing sub classes to do the given action.
349 * @param[in] actionId The action to perform
350 * @param[in] attributes The list of attributes for the action. ( optional for this data structure to have content )
352 virtual void OnDoAction( const Property::Index actionId, const Property::Value& attributes );
355 * @brief Update the shader when some properties are changed.
357 virtual void UpdateShader()
362 * @brief Called by GetPropertyObject() allowing sub classes to respond to the GetPropertyObject event
363 * @note The derived class is required to register the given property.
364 * @param[in] key The key of the visual's property.
365 * @return The Property object
367 virtual Dali::Property OnGetPropertyObject(Dali::Property::Key key)
370 return Dali::Property(handle, Property::INVALID_INDEX);
376 * @brief Gets the on scene state for this Visual
378 * @return Returns true if this Visual is on the scene, false if it is off the scene
380 bool IsOnScene() const;
383 * @brief Query whether the corners of the visual requires to be rounded.
385 * @return Returns true if the rounded corner is required, false otherwise.
387 bool IsRoundedCornerRequired() const;
392 * Register the mix color uniform on the Renderer and store the property index.
393 * Note, this is not used by Color or Primitive Visuals, which will use their
394 * own property index.
396 void RegisterMixColor();
399 * Find the matching property on the renderer or shader. If it's a shader
400 * property, register it on the renderer in order to animate it for this
401 * visual independently.
402 * @param[in] key The key to match.
403 * @return the matching index, or INVALID_INDEX if it's not found
405 Property::Index GetPropertyIndex( Property::Key key );
408 * Set up the transition. If no animation is required, then
409 * transition will be untouched.
411 * @param[in] transition The transition to use or set up.
412 * @param[in] animator The animation data to use
413 * @param[in] index The property index on the renderer to animate
414 * @param[in] initialValue The optional initial value
415 * @param[in] targetValue The target value to use
417 void SetupTransition( Dali::Animation& transition,
418 Internal::TransitionData::Animator& animator,
419 Property::Index index,
420 Property::Value& initialValue,
421 Property::Value& targetValue );
424 * Animate the opacity property - Special handling to
425 * ensure that the blend mode is set to ON whilst animating,
426 * and set back to AUTO if it's opaque at the end of the
429 * @param[in] transition The transition to use or set up.
430 * @param[in] animator The animation data to use
432 void AnimateOpacityProperty( Dali::Animation& transition,
433 Internal::TransitionData::Animator& animator );
436 * Animate the renderer property - no special handling
438 * @param[in] transition The transition to use or set up.
439 * @param[in] animator The animation data to use
441 void AnimateRendererProperty( Dali::Animation& transition,
442 Internal::TransitionData::Animator& animator );
445 * Animate the mix color property.
447 * If the animator is a vec3, then it only animates the color
448 * channels without animating the opacity. If it's a vec4, then it
449 * runs 2 animators, one for the the vec3 mixColor, and one for the
450 * opacity. (They are separate uniforms in the shader )
452 * @param[in] transition The transition to use or set up.
453 * @param[in] animator The animation data to use
455 void AnimateMixColorProperty( Dali::Animation& transition,
456 Internal::TransitionData::Animator& animator );
459 Base( const Visual::Base& visual );
462 Base& operator=( const Visual::Base& visual );
467 VisualFactoryCache& mFactoryCache;
470 typedef IntrusivePtr<Base> BasePtr;
474 } // namespace Internal
476 inline const Internal::Visual::Base& GetImplementation(const Toolkit::Visual::Base& visualBase )
478 DALI_ASSERT_ALWAYS( visualBase && "visual base handle is empty" );
480 const BaseObject& handle = visualBase.GetBaseObject();
482 return static_cast<const Internal::Visual::Base&>(handle);
485 inline Internal::Visual::Base& GetImplementation(Toolkit::Visual::Base& visualBase)
487 DALI_ASSERT_ALWAYS( visualBase && "visual base handle is empty" );
489 BaseObject& handle = visualBase.GetBaseObject();
491 return static_cast<Internal::Visual::Base&>(handle);
494 } // namespace Toolkit
498 #endif // DALI_TOOLKIT_INTERNAL_VISUAL_H